Natural oil based cleaners

ABSTRACT

A composition suitable for cleaning hard surfaces comprising a natural oil solvent and a natural oil thickener is provided.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the priority benefit under 35 U.S.C. section 119of pending U.S. Provisional Patent Application No. 62/174,207 filed onJun. 11, 2015 which is incorporated herein by reference. Thisapplication claims priority, as a continuation-in-part application, topending U.S. patent application Ser. No. 13/776,542 filed Feb. 25, 2013and to pending U.S. patent application Ser. No. 14/217,210 filed Mar.17, 2014 which, in turn, claims priority to expired provisionalapplication No. 61/786,719 filed Mar. 15, 2013 all of which areincorporated herein by reference.

FIELD OF THE INVENTION

The present invention is related to a natural oil based cleaner. Morespecifically, the present invention is related to a natural oil basedcleaner comprising an oil and a natural oil based thickener.

BACKGROUND

The use of natural oils and their derivatives as solvents is increasingin many applications due to their availability as a renewable resourceand their benign environmental properties. Natural oil solvents are aclass of organic compounds known as terpenes which are derived fromcitrus fruits and trees. These include terpenes such as d-limonene andpinene which are known to possess good solvency characteristics and arerelatively low in toxicity compared to solvents derived frompetrochemical sources. Other natural oil derivatives, such as soy methylester, have been formulated into cleaning formulations for consumer andindustrial applications. These non-toxic, biodegradable solvents areparticularly desirable in cleaners used in oil field operations wherelarge volumes of cleaning formulations are utilized and released intothe environment.

Despite these advantages, there are drawbacks to their use in cleaningformulations. First, they are not water soluble and thus additionalsurfactants and additives must be incorporated in order to provide waterrinsibility upon cleanup as described in U.S. Pat. No. 5,336,428 whichis incorporated herein by reference. In addition, these addedsurfactants are often required at high levels and are often undesirablefrom an environmental standpoint. If the limonene or other natural oilsolvent is to be provided in the form of an emulsion, it is oftendifficult to prepare stable emulsions or clear microemulsions witheffective concentrations of the solvent.

Another disadvantage of natural oil solvents, particularly in cleaninglarge vertical surfaces such as tanks and oilrigs, is their lowviscosity. This prevents them from remaining on the surface forsufficient time for their solvency to be effective. Attempts have beenmade to thicken or viscosify formulations containing natural oilsolvents in order to increase their effectiveness. Synthetic copolymershave been used as additives to increase the viscosity as described inU.S. Pat. No. 5,336,428; U.S. Pat. No. 5,534,200 and TechnicalDisclosure “Clear Gelled Limonene Cleaner” Arizona Chemical, IP000215186 all of which are incorporated herein by reference. However,these are often difficult to dissolve in the solvent requiring heat andagitation. The solvent and polymer must be heated and mixed until aclear homogeneous mixture is obtained and then cooled to obtain thethickened solvent and precise viscosity control is difficult.Furthermore, these synthetic copolymers are not desirable from anenvironmental standpoint and they are not water soluble.

Provided herein is an improved natural oil based cleaner comprising anatural oil solvent and a natural oil based thickener or dispersant forthe solvent.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide an environmentallyfriendly cleaning composition with improved solvency and rheologicalproperties.

It is another object of the invention to provide an environmentallyfriendly composition suitable for cleaning hard surfaces which isreadily obtained from inexpensive natural oils.

A particular feature of the invention is an increased viscosity whereinthe viscosity enhancer also functions as a dispersant which increasesthe effectiveness of the cleaning composition.

These and other embodiments, as will be realized, are provided in acomposition suitable for cleaning hard surfaces comprising a natural oilsolvent and a natural oil thickener.

Yet another embodiment is provided in a method for cleaning a surfacecomprising:

providing a maleated natural oil;

combining the maleated natural oil with a natural oil solvent;

reacting the maleated natural oil with a tertiary amine thereby forminga composition;

applying the composition to the surface to form a used composition and aclean surface;

and removing the used composition from said surface.

BRIEF DESCRIPTION OF FIGURES

FIG. 1 is a schematic representation of an embodiment of the invention.

FIG. 2 is a flow-chart representation of an embodiment of the invention.

DESCRIPTION

The present invention is related to a cleaning composition comprising anatural oil solvent, particularly terpenes or lower alkyl esters, with anatural oil based additive which increases viscosity and functions as adispersant. A particularly preferred natural oil based additive is thereaction product of a maleated natural oil or fatty acid with,preferably, alkanol amines.

The invention will be described with reference to the figures forming anintegral non-limiting element of the disclosure.

The compositions of the present invention are particularly suitable ashard surface cleaners. The composition comprises a natural oil solvent,a natural oil based thickener and optionally water and/or additionalsurfactant. While not limited to theory, the natural oil based thickeneris also believed to function as an emulsifier and dispersant. Thecomposition preferably comprises at 10 to about 80 wt % natural oilsolvent and about 20 to about 50 wt % natural oil thickener with thebalance being water.

The natural oil solvent is preferably selected from the terpene class ofnatural oils, derived from citrus oils or wood products, or lower alkylester derivatives of triglyceride fatty acids. Particularly suitablenatural oil solvents include limonene and particularly D-limonene, soymethyl ester, pinene, tall oil methyl ester and lower alkyl esters,linseed oil methyl and lower alkyl esters, turpentine, eucalyptus oil,peppermint oil, tung oil and esters derived from tung oil. Non-naturallyderived oils such as mineral oil and petroleum distillates may also beused.

The natural oil based thickener is a gelled, natural triglyceride oilsuch as soybean oil, linseed oil, safflower oil, sunflower oil, avocadooil, rapeseed oil, castor oil, tall oil, rosin oil and tung oil or afatty acid such as corn oil, peanut oil, vegetable oils, fish oils orany unsaturated fatty acid of the corresponding triglyceride may also beused including oleic acid, linoleic acid and linolenic acid, all ofwhich undergo an ene or diels alder reaction with maleic anhydride.Particularly suitable fatty acids are conjugated linoleic and linolenicacids sold under the Tradenames Pamolyn 200 and Pamolyn 380 by EastmanChemical. While the triglyceride is the preferred embodiment of thiscomposition, the di- and monoglycerides or mixed mono-, di-, andtriglycerides of these oils may be used, or the fatty acids comprisingthem. The triglyceride has a preferred molecular weight of 500 to about1500 and the fatty acid has a preferred molecular weight of about 150 toabout 450. It is preferable that the natural oil used as the basis forthe natural oil based thickener have a high level of saturation with atleast 30-70% of the fatty acid chains being unsaturated and conjugatablewherein conjugatable chains comprise at least two alkenes which areeither conjugated or can be reacted to form conjugated alkenes such asby the action of a catalyst or an Ene reaction. The gelation of thesetriglyceride oils and their properties has been disclosed by applicantin co-pending commonly assigned application U.S. Publ. Pat. Appl. No.2014/0243549 entitled “Natural Oil Based Gels, Applications and Methodsof Preparation” which is incorporated herein by reference. Thesetriglyceride oil gels are the reaction products of a succinic anhydridederivative of the triglyceride and a base, the base being a metalhydroxide, or an amine, preferably an alkanolamine.

For the purposes of clarity the triglyceride or fatty acid will beabbreviated. Using a representation of soy bean oil as an examplewherein that portion being derivatized is shown in brackets:

would be represented by the following:

wherein Rx and Ry are those groups necessary to represent the twoportions of the soy bean oil on either side of the derivitized portion.It would be understood that any conjugatable or conjugated alkenes couldbe represented in this manner. After conjugation and reaction withmaleic anhydride, referred to herein as maleated natural oil, followedby further reaction with a tertiary amine having a formula:

the product is a Diels Alder adduct represent by:

or the product after conjugation and reaction with maleic anhydridefollowed by further reaction with the tertiary amine is the Ene Adductrepresent by:

wherein:R^(x) and R^(y) are as defined above to represent those groups necessaryto represent the remaining groups of the natural oil used as the basisof the natural oil based thickener; R¹, R² and R³ independentlyrepresent an alkyl or alkenyl of 1-5 carbons either unsubstituted orsubstituted with an alkyl of 1-5 carbons; —(CH₂CHR⁵O)_(n)— wherein eachR⁵ independently is —H or —CH₃ and preferably —H and n is an integer of1-100, preferably 10-100 and more preferably 10-70; or some combinationthereof.

A particularly suitable natural oil based thickener useful in thepresent invention is the reaction product of a succinic anhydridefunctionalized soybean oil and triethanolamine illustrated in FIG. 1wherein R is those groups necessary to represent the remaining elementsof soybean oil.

The ionic functionality coupled with ester formation is hypothesized toresult in ionomeric aggregation and gel formation. The natural oil basedthickeners are soluble in a variety of natural oil solvents,particularly widely employed limonene and soy methyl ester, and can beused to provide thickened natural oil solvent formulations which areparticularly suitable for cleaning. The composition is readily formed byan in situ gelation, wherein the maleated natural oil is first dissolvedin the natural oil solvent followed by the addition of the tertiaryamine. The advantage of this method over the prior art is that thecomponents are readily soluble and no extended heating and agitation arerequired. The viscosity of the resulting solvent can also be preciselycontrolled by this method. Additionally, and most advantageously, thenatural oil based thickener also functions as an emulsifier. The ionicfunctionality imparts water dispersability thereby providing stableemulsions preferably comprising up to 60-70 wt percent of the naturaloil based thickener and solvent can be readily obtained. Thus, thenatural oil based thickener also functions as a very effectiveemulsifier for the solvent. This renders the addition of additionalenvironmentally undesirable surfactants unnecessary in order to providewater solubility or rinsibility upon completion of the cleaningoperation. In one embodiment there is no additional surfactant in thecomposition

The natural oil based thickeners used in the compositions of the presentinvention also have the novel advantage of providing dispersability foroil, grease, pigments, and other substances during the cleaning process.

The compositions of the present invention may be anhydrous wherein theycontain only solvent and thickener. In one embodiment the compositionconsist essentially of the natural oil solvent and the natural oil basedthickener or any unreacted precursors thereof. It should be understoodthat the term “thickener” refers to the product obtained from thereaction of the maleated natural oil and the tertiary amine that ispreferably formed in situ in the natural oil solvent. In this case thesolvent and thickener form a clear homogeneous solution that hasexcellent solvency and readily “cleans up” or emulsifies when exposed towater. The viscosity of these solutions is readily controlled by theamount of thickener added. Depending on the desired viscosity, thickeneris added from about 5 to about 50 wt %, and preferably from about 15 toabout 30 wt %, based on the solvent, to yield clear anhydrous solutions.

The compositions of the present invention may also be microemulsions.These formulations include a natural oil solvent such as d-limonene, aswell as the natural oil based thickener that allows the solvent to beemulsified into water. The thickener also includes an amine componentthat also assists in the removal or emulsification of oily residues. Theformulation may also contain defoamers, stabilizers, or othersurfactants. In this case water and additional surfactant is added toform clear viscous microemulsions. The additional surfactant alsoprovides synergistic solvency to the formulation. Suitable surfactantsinclude nonionic amine alkoxylates such as cocoamine reacted with two toten moles of ethylene oxide, oleyl amine reacted with two to ten molesof ethylene oxide, tallow amine reacted with two to ten moles ofethylene oxide and the like. The preferred additional surfactants arecocamine reacted with five and six moles of ethylene oxide and will bereferred to as CAM-5 and CAM-6 respectively. A particularly preferredsurfactant is an amine containing from about 10 to about 22 carbon atomsand is reacted with about 6 moles of ethylene oxide.

It should be noted that this formulation can also be used in a lowviscosity form as a cleaning agent of emulsifier, and that a highviscosity is not always necessary. For example, a composition comprisingthe thickener described herein mixed with between 5 and 50 wt percent,and preferably between 10 and 30 wt percent, of CAM-5 will produce a lowviscosity formulation that has been found to be an unexpectedlyeffective cleaner for oil and grease deposits, and is also a highlyeffective emulsifier. If desired, water can be added from 1 to 50 wtpercent, and more preferably from 15 to 25 wt percent, in order toincrease the viscosity of the formulation. High and low viscositycleaners, emulsifiers, and dispersants can be thus prepared.

The viscosity is preferably 400-10,000 cP. Below about 400 cP thecomposition tends to flow which decreases the cleaning ability and theamount of thickener is insufficient to function as an adequatedispersant. Above about 10,000 cP the composition is difficult to apply.The viscosity is more preferably about 1400 to about 8100 cP.

An embodiment of the invention will be described with reference to FIG.2. In FIG. 2, a natural oil is provided at 10. The natural oil eithercomprises conjugated alkenes or is reacted to conjugate alkenes and thenmaleated at 12 thereby forming a maleated natural oil. The maleatednatural oil is mixed with a natural oil solvent at 14 to provide amixture. A base, preferably a tertiary amine, is provided at 16 and thebase is mixed with the mixture at 18 and allowed to react to form thenatural oil thickener in natural oil solvent. The natural oil thickenerin solvent is applied to a surface at 20 and allowed to react with anydissolvable material coated thereon. The dissolvable material andnatural oil thickener in solvent is removed from the surface at 22preferably by washing with water.

EXAMPLES

The following examples are intended to demonstrate the usefulness ofpreferred embodiments of the present invention and should not beconsidered to limit its scope or applicability in any way.

Examples 1-6

In-Situ Gellation of d-Limonene and Soy Methyl Ester.

The compositions of Examples 1-6 in Table 1 were prepared by an in-situgelation wherein a soybean oil maleic anhydride adduct, or maleatedsoybean oil, at a percent maleation of 23.0 percent was added to thelimonene or soy methyl ester. One equivalent of triethanolamine was thenadded and the mixture was stirred until clear and homogenous. Exemplaryclear solvent gels of any desired viscosity were obtained. In Table 1(%) is the percentage of soybean oil conjugated bonds maleated.

TABLE 1 Properties of d-Limonene and Soy methyl Ester Gels Ex. Solvent %Clarity Oil Bleed Viscosity(cP) 1 D-Limonene 15 Transparent None 1500 2D-Limonene 40 Transparent None 6000 3 D-Limonene 20 Transparent None3000 4 Soy Methyl 15 Transparent None 3000 Ester 5 Soy Methyl 40Transparent None 8000 Ester 6 Soy Methyl 20 Transparent None 4000 Ester

Example 7

This example demonstrates the enhanced solvency and effectiveness ofcompositions of the present invention in cleaning dried inks andpigments relative to 100 percent d-limonene. The composition of Example1 effectively cleaned dried titanium dioxide and carbon black pigmentfrom a painted white enamel surface. The composition of Example 1 alsoeffectively cleaned dried black and red graphic inks from the surface.100 percent d-limonene did not completely remove the pigments or theinks from the substrate. Furthermore, the composition of example 1completely dispersed in water after cleaning leaving no residue.

Example 8

This example demonstrates the effectiveness of compositions of thepresent invention in cleaning vertical surfaces. A 12″×6″ one quarterinch mild steel plate coated with an asphalt residue was clamped in avertical position. The composition of Example 3 was applied to the plateand the plate was scrubbed with a sponge. The gelled limonene solutionremained on the surface while 100 percent limonene had to be continuallyreapplied. Furthermore, the composition of example 3 completelydispersed in water after cleaning leaving no residue.

Example 9

A microemulsion was prepared from the following components. D-limonene,32%. Soy oil based thickener, 14%, CAM-6 surfactant, 15%, and Water,39%. The soy oil based thickener formed in-situ in the d-limonene aspreviously described. When a clear homogeneous solution was obtained,water was added to produce a milky white emulsion. The CAM-6 surfactantwas then added to produce a clear viscous microemulsion. Alternatively,CAM-6 could be added before addition of water. In this way amicroemulsion was formed directly and without clouding at any point.

Example 10

This example demonstrates the effectiveness of the microemulsion ofExample 9 in removing drilling mud residue from surfaces. A mixturecomprising of 70% d-limonene containing 27% maleated soy bean oil, 25%CAM-5, and 5% DF-58 polysiloxane defoamer available from Air Productswas emulsified in water at 3%. The foam head was found to have lowheight and dissipate rapidly. When this cloudy emulsion was added to aglass jar coated with simulated drilling mud and shaken by hand for twominutes, the walls of the jar were found to be completely clean.

In a comparative example, a mixture comprised of 65% ABSA(alkylbenzenesulfonic acid), 30% triethanolamine (TEA), and 5% DF-58defoamer was dissolved in water at 3%. When this highly foamy solutionwas added to a glass jar coated with simulated drilling mud and shakenby hand for two minutes, the walls of the jar were found to still besignificantly coated in oil residue.

In another example, a jar containing simulated drilling mud was treatedonly with the D-limonene containing maleated soy bean oil but not anamine. The drilling mud was found to be removed from the glass surface,but then redeposited elsewhere on the glass surface. This demonstratesthe use of an amine in the surfactant formulation.

In another example, drilling mud mimic was coated onto a steel spatula.This spatula was then immersed in 500 mL of either of the abovesolutions inside a Warring blender stirring at approximately 2000 rpm.After one minute of being submerged in the treating solution, thespatula which had been immersed in the solution comprised of D-limoneneand CAM-5 was substantially cleaner than the spatula treated with theABSA-TEA solution

The invention has been described with reference to the preferredembodiments without limit thereto. One of skill in the art wouldappreciate additional improvements and embodiments which are notspecifically recited but are within the scope of invention as morespecifically set forth in the claims appended hereto.

Claimed is:
 1. A composition suitable for cleaning hard surfacescomprising a natural oil solvent and a natural oil thickener.
 2. Thecomposition suitable for cleaning hard surfaces of claim 1 wherein saidnatural oil solvent is selected from the group consisting of terpenesand lower alkyl ester derivatives of triglyceride fatty acids.
 3. Thecomposition suitable for cleaning hard surfaces of claim 2 wherein saidsolvent is selected from the group consisting of limonene and soy methylester, pinene, tall oil methyl ester and lower alkyl esters, linseed oilmethyl and lower alkyl esters, turpentine, peppermint oil, eucalyptusoil, tung oil and esters derived from tung oil. Non-naturally derivedoils such as mineral oil and petroleum distillates may also be used. 4.The composition suitable for cleaning hard surfaces of claim 3 whereinsaid solvent is D-limonene.
 5. The composition suitable for cleaninghard surfaces of claim 1 wherein said natural oil thickener is thereaction product of a base and a maleated natural oil.
 6. Thecomposition suitable for cleaning hard surfaces of claim 5 wherein saidbase is an amine.
 7. The composition suitable for cleaning hard surfacesof claim 6 wherein said amine is defined by the formula:

wherein: R1, R² and R³ independently represent an alkyl or alkenyl of1-5 carbons either unsubstituted or substituted with an alkyl of 1-5carbons; —(CH₂CHR⁵O)_(n)— wherein each R⁵ independently is —H or —CH₃and n is an integer of 1-100; or some combination thereof.
 8. Thecomposition suitable for cleaning hard surfaces of claim 7 wherein R⁵ is—H.
 9. The composition suitable for cleaning hard surfaces of claim 7wherein n is 10-100.
 10. The composition suitable for cleaning hardsurfaces of claim 9 wherein n is 10-70.
 11. The composition suitable forcleaning hard surfaces of claim 1 wherein said natural oil thickenercomprises at least one material selected from the group consisting of:

wherein: R^(x) and R^(y) are the groups necessary to represent a naturaloil; R1, R² and R³ independently represent an alkyl or alkenyl of 1-5carbons either unsubstituted or substituted with an alkyl of 1-5carbons; —(CH₂CHR⁵O)_(n)— wherein each R⁵ independently is —H or —CH₃and n is an integer of 1-100; or some combination thereof.
 12. Thecomposition suitable for cleaning hard surfaces of claim 11 wherein R⁵is —H.
 13. The composition suitable for cleaning hard surfaces of claim11 wherein n is 10-100.
 14. The composition suitable for cleaning hardsurfaces of claim 13 wherein n is 10-70.
 15. The composition suitablefor cleaning hard surfaces of claim 11 wherein said natural oil is atriglyceride oil.
 16. The composition suitable for cleaning hardsurfaces of claim 15 wherein said natural oil is selected from the groupconsisting of soybean oil, linseed oil, safflower oil, sunflower oil,avocado oil, rapeseed oil, castor oil, tall oil, rosin oil and tung oil.17. The composition suitable for cleaning hard surfaces of claim 1comprising 10 to 80 wt % natural oil solvent.
 18. The compositionsuitable for cleaning hard surfaces of claim 1 comprising 20 to about 50wt % natural oil thickener.
 19. The composition suitable for cleaninghard surfaces of claim 1 having a viscosity of 400-10,000 cP.
 20. Thecomposition suitable for cleaning hard surfaces of claim 19 having aviscosity of 1,400-8,100 cP.
 21. The composition suitable for cleaninghard surfaces of claim 1 further comprising water.
 22. The compositionsuitable for cleaning hard surfaces of claim 21 comprising 1-50 wt %water.
 23. The composition suitable for cleaning hard surfaces of claim22 comprising 15-25 wt % water.
 24. The composition suitable forcleaning hard surfaces of claim 1 further comprising a solvent.
 25. Thecomposition suitable for cleaning hard surfaces of claim 24 wherein saidsolvent is an amine containing from about 10 to about 22 carbon atomsand is reacted with about 6 moles of ethylene oxide.
 26. The compositionsuitable for cleaning hard surfaces of claim 25 wherein said amine iscocoamine reacted with 6 moles of ethylene oxide.
 27. A method forcleaning a surface comprising: providing a maleated natural oil;combining said maleated natural oil with a natural oil solvent; reactingsaid maleated natural oil with a tertiary amine thereby forming acomposition; applying said composition to said surface to form a usedcomposition and a clean surface; and removing said used composition fromsaid surface.
 28. The method for cleaning a surface of claim 27 whereinsaid natural oil solvent is selected from the group consisting ofterpenes and lower alkyl ester derivatives of triglyceride fatty acids.29. The method for cleaning a surface of claim 28 wherein said solventis selected from the group consisting of limonene and soy methyl ester,pinene, tall oil methyl ester and lower alkyl esters, linseed oil methyland lower alkyl esters, turpentine, eucalyptus oil, peppermint oil, tungoil and esters derived from tung oil. Non-naturally derived oils such asmineral oil and petroleum distillates may also be used.
 30. The methodfor cleaning a surface of claim 29 wherein said solvent is D-limonene.31. The method for cleaning a surface of claim 27 wherein said naturaloil thickener is the reaction product of a base and a maleated naturaloil.
 32. The method for cleaning a surface of claim 31 wherein said baseis an amine.
 33. The method for cleaning a surface of claim 32 whereinsaid amine is defined by the formula:

wherein: R1, R² and R³ independently represent an alkyl or alkenyl of1-5 carbons either unsubstituted or substituted with an alkyl of 1-5carbons; —(CH₂CHR⁵O)_(n)— wherein each R⁵ independently is —H or —CH₃and n is an integer of 1-100; or some combination thereof.
 34. Themethod for cleaning a surface of claim 33 wherein R⁵ is —H.
 35. Themethod for cleaning a surface of claim 33 wherein n is 10-100.
 36. Themethod for cleaning a surface of claim 35 wherein n is 10-70.
 37. Themethod for cleaning a surface of claim 27 wherein said natural oilthickener comprises at least one material selected from the groupconsisting of:

wherein: R^(x) and R^(y) are the groups necessary to represent a naturaloil; R1, R² and R³ independently represent an alkyl or alkenyl of 1-5carbons either unsubstituted or substituted with an alkyl of 1-5carbons; —(CH₂CHR⁵O)_(n)— wherein each R⁵ independently is —H or —CH₃and n is an integer of 1-100; or some combination thereof.
 38. Themethod for cleaning a surface of claim 37 wherein R⁵ is —H.
 39. Themethod for cleaning a surface of claim 37 wherein n is 10-100.
 40. Themethod for cleaning a surface of claim 39 wherein n is 10-70.
 41. Themethod for cleaning a surface of claim 37 wherein said natural oil is atriglyceride oil.
 42. The method for cleaning a surface of claim 41wherein said natural oil is selected from the group consisting ofsoybean oil, linseed oil, safflower oil, sunflower oil, avocado oil,rapeseed oil, castor oil, tall oil, rosin oil and tung oil.
 43. Themethod for cleaning a surface of claim 27 comprising 10 to 80 wt %natural oil solvent.
 44. The method for cleaning a surface of claim 27comprising 20 to about 50 wt % natural oil thickener.
 45. The method forcleaning a surface of claim 27 having a viscosity of 400-10,000 cP. 46.The method for cleaning a surface of claim 45 having a viscosity of1,400-8,100 cP.
 47. The method for cleaning a surface of claim 27further comprising water.
 48. The method for cleaning a surface of claim47 comprising 1-50 wt % water.
 49. The method for cleaning a surface ofclaim 48 comprising 15-25 wt % water.
 50. The method for cleaning asurface of claim 27 further comprising a solvent.
 51. The method forcleaning a surface of claim 50 wherein said solvent is an aminecontaining from about 10 to about 22 carbon atoms and is reacted withabout 6 moles of ethylene oxide.
 52. The method for cleaning a surfaceof claim 51 wherein said amine is cocoamine reacted with 6 moles ofethylene oxide.